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WZ4002 {[allProObj[0].p_purity_real_show]}

货号:A222874

WZ4002 is an irreversible inhibitor of mutant EGFR (L858R) and EGFR (T790M) with IC50 of 2 nM and 8 nM respectively.

WZ4002 化学结构 CAS号:1213269-23-8
WZ4002 化学结构
CAS号:1213269-23-8
WZ4002 3D分子结构
CAS号:1213269-23-8
WZ4002 化学结构 CAS号:1213269-23-8
WZ4002 3D分子结构 CAS号:1213269-23-8
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WZ4002 纯度/质量文件 产品仅供科研

货号:A222874 标准纯度: {[allProObj[0].p_purity_real_show]}
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产品名称 EGFR/ErbB1 ErbB3 ErbB4 HER2/ErbB2 mutant EGFR 其他靶点 纯度
WZ-3146 ++++

EGFR (E746_A750), IC50: 2 nM

EGFR (E746_A750/T790M), IC50: 14 nM

99%+
Daphnetin +

EGFR, IC50: 7.67 μM

PKA,PKC 95%
Lifirafenib ++

EGFR, IC50: 29 nM

+

EGFR(T790M/L858R), IC50: 495 nM

98%
PD168393 ++++

EGFR, IC50: 0.70 nM

99%+
Nazartinib ++

mutant EGFR, Ki: 0.031 μM

++

mutant EGFR, Ki: 0.031 μM

98%
Norcantharidin 98%
CL-387785 ++++

EGFR, IC50: 370 pM

98%
WHI-P154 +++

EGFR, IC50: 4 nM

Src,VEGFR 98%
Tyrphostin A9 +

EGFR, IC50: 460 μM

PDGFR 98%
AG 555 +

EGFR, IC50: 0.7 μM

98%
AG 494 +

EGFR, IC50: 1.2 μM

99%+
AG-556 +

EGFR, IC50: 5 μM

98%
RG13022 +

EGFR, IC50: 4 μM

99%+
Tyrphostin RG 14620 99%+
Vandetanib +

EGFR, IC50: 500 nM

98%
CNX-2006 ++

mutant EGFR, IC50: <20 nM

++

mutant EGFR, IC50: <20 nM

98%
AZD3759 ++++

EGFR (L858R), IC50: 0.2 nM

EGFR (WT), IC50: 0.3 nM

98%
Erlotinib ++++

EGFR, IC50: 2 nM

95%
Saracatinib +++

EGFR (L861Q), IC50: 4 nM

EGFR, IC50: 5 nM

99%+
AG1557 98%
Rociletinib ++

EGFR (wt), Ki: 303.3 nM

EGFR (L858R/T790M), Ki: 21.5 nM

98%
AG490 +

EGFR, IC50: 0.1 μM

98%
Cetuximab ++++

EGFR, Kd: 0.39 nM

98%
Osimertinib ++

WT EGFR, IC50: 12.92 nM

L858R/T790M EGFR, IC50: 11.44 nM

99%
Osimertinib mesylate 98% (Content MsOH 15.2-18.2%)
Chrysophanol mTOR 98%
PD153035 ++++

EGFR, Ki: 5.2 pM

99%+
Olmutinib BTK 99%+
WZ4002 ++++

EGFR (L858R/T790M), IC50: 8 nM

EGFR (L858R), IC50: 2 nM

99%+
Icotinib +++

EGFR, IC50: 5 nM

98+%
Desmethyl Erlotinib HCl ++++

EGFR, IC50: 2 nM

98%
Cyasterone 99%+
PP 3 +

EGFR tyrosine kinase, IC50: 2.7 μM

98%
WZ8040 99%+
(-)-Epigallocatechin Gallate 99%
AG 18 +

EGFR, IC50: 35 μM

99%+
O-Desmethyl gefitinib ++

EGFR, IC50: 36 nM

98%
Falnidamol 99%+
AZ-5104 ++++

EGFR (L858R), IC50: 6 nM

EGFR (L861Q) , IC50: <1 nM

+++

ErbB4, IC50: 7 nM

BRK 99%+
Butein 95%
Genistein 98%
SU5214 +

EGFR, IC50: 36.7 μM

99%+
Naquotinib 99%+
Gefitinib ++

EGFR, IC50: 15.5 nM

+

EGFR (858R/T790M), IC50: 823.3 nM

98%
Theliatinib +++

WT EGFR, IC50: 3 nM

++

EGFR T790M/L858R, IC50: 22 nM

98+%
Lazertinib ++++

WT EGFR, IC50: 76 nM

L858R/T790M EGFR, IC50: 2 nM

++++

Del19/T790M, IC50: 1.7 nM

99%+
Gefitinib-based PROTAC 3 ++

EGFR, DC50: 22.3 nM

99%+
MTX-211 PI3K 98%
(E)-AG 99 99%+
Licochalcone D PARP,Caspase 97%
Zipalertinib +++

EGFR WT, IC50: 8 nM

EGFR (L861Q), IC50: 4.1 nM

+++

HER4, IC50: 4 nM

++++

EGFR L858R, IC50: 2 nM

EGFR(d746-750), IC50: 1.4 nM

97%
JND3229 +++

EGFR WT, IC50: 6.8 nM

++

EGFR L858R/T790M, IC50: 30.5 nM

99%+
Firmonertinib mesylate 99%+
Tyrphostin AG30 99%+
EGFR-IN-12 ++

EGFR, IC50: 21 nM

99%+
Mobocertinib 98%
(Rac)-JBJ-04-125-02 99%
(S)-Sunvozertinib 98%
BLU-945 95%
Poziotinib +++

HER1, IC50: 3.2 nM

++

HER4, IC50: 23.5 nM

+++

HER2, IC50: 5.3 nM

98%
TAK-285 ++

EGFR/HER1, IC50: 23 nM

+

HER4, IC50: 260 nM

++

HER2, IC50: 17 nM

99%+
ARRY-380 analog 98%
Canertinib ++++

EGFR, IC50: 1.5 nM

+++

ErbB2, IC50: 9.0 nM

99%+
Dacomitinib +++

EGFR, IC50: 6.0 nM

+

ErbB4, IC50: 73.7 nM

+

ErbB2, IC50: 45.7 nM

98%
EGFR/ErbB-2/ErbB-4 inhibitor-2 +

ErbB4, IC50: 1.91 μM

+

ErbB2, IC50: 0.08 μM

99%+
(E/Z)-CP-724714 ++

HER2/ErbB2, IC50: 10 nM

98+%
Lapatinib ++

EGFR, IC50: 10.8 nM

+

ErbB4, IC50: 367 nM

+++

ErbB2, IC50: 9.2 nM

98%
AEE788 ++++

EGFR, IC50: 2 nM

+

HER4/ErbB4, IC50: 160 nM

+++

HER2/ErbB2, IC50: 6 nM

c-Fms 98+%
AV-412 free base ++++

EGFR, IC50: 0.75 nM

++

ErbB2, IC50: 19 nM

++++

EGFRL858R/T790M, IC50: 0.51 nM

EGFRT790M, IC50: 0.79 nM

98+%
Neratinib +

EGFR, IC50: 92 nM

+

HER2, IC50: 59 nM

Src 98%
BMS-599626 ++

HER1, IC50: 20 nM

+

HER4, IC50: 190 nM

++

HER2, IC50: 30 nM

99+%
Tucatinib +++

ErbB2, IC50: 8 nM

98%
Allitinib ++++

EGFR, IC50: 0.5 nM

++++

ErbB4, IC50: 0.8 nM

+++

ErbB2, IC50: 3.0 nM

99%
Pelitinib +

EGFR, IC50: 38.5 nM

+

ErbB2, IC50: 1.255 μM

Src,Raf 99%+
Sapitinib +++

EGFR, IC50: 4 nM

+++

ErbB3, IC50: 4 nM

+++

ErbB2, IC50: 3 nM

99%+
CUDC-101 +++

EGFR, IC50: 2.4 nM

++

HER2, IC50: 15.7 nM

HDAC 99%+
Varlitinib +++

ErbB1, IC50: 7 nM

++++

ErbB2, IC50: 2 nM

99%+
Afatinib dimaleate ++++

EGFR (wt), IC50: 0.5 nM

EGFR (L858R/T790M), IC50: 0.4 nM

++

HER2, IC50: 14 nM

98%
Canertinib dihydrochloride +++

EGFR, IC50: 7.4 nM

+++

ErbB2, IC50: 9 nM

98%
Allitinib tosylate ++++

EGFR (T790M/L858R), IC50: 12 nM

EGFR, IC50: 0.5 nM

++++

ErbB4, IC50: 0.8 nM

+++

ErbB2, IC50: 3.0 nM

99%
Tyrphostin AG 528 +

EGFR, IC50: 4.9 μM

+

HER2, IC50: 2.1 μM

98%
Afatinib ++++

EGFR (wt), IC50: 0.5 nM

EGFR (L858R), IC50: 10 nM

++++

ErbB4, IC50: 1 nM

++

HER2, IC50: 14 nM

99%
Pyrotinib dimaleate ++

EGFR, IC50: 0.013 μM

++

HER2, IC50: 0.038 μM

98%
Epertinib HCl ++++

EGFR, IC50: 1.48 nM

+++

HER4, IC50: 2.49 nM

+++

HER2, IC50: 7.15 nM

98%
Tuxobertinib ++++

EGFR, Kd: 0.2 nM

++++

HER2, Kd: 0.76 nM

98%
ALK-IN-1 ++

EGFR(del19), IC50: 36.8 nM

EGFR(C797S/del19), IC50: 138.6 nM

ALK 98+%
Brigatinib +

EGFR(del19), IC50: 39.9 nM

EGFR(C797S/T790M/del19), IC50: 67.2 nM

FLT3,ALK 98%
Avitinib ++++

EGFR L858R/T790M, IC50: 0.18 nM

BTK 99%+
EAI045 97%
Almonertinib 98%
BI-4020 ++++

EGFRdel19 T790M C797S, IC50: 0.2 nM

99%+
EGFR-IN-7 ++++

EGFRL858R/T790M, IC50: 0.19 nM

EGFRd746-750/T790M/C797S, IC50: 0.26 nM

98%
1. 鼠标悬停在“+”上可以显示相关IC50的具体数值。"+"越多,抑制作用越强。2. "✔"表示该化合物对相应的亚型有抑制作用,但抑制强度暂时没有相关数据。

WZ4002 生物活性

靶点
  • EGFR/ErbB1

    EGFR (L858R/T790M), IC50:8 nM

    EGFR (L858R), IC50:2 nM

描述 A significant portion of patients with lung cancer harbor mutations in the kinase domain of epidermal growth factor receptor (EGFR). WZ4002 is a novel, irreversible EGFR inhibitor with IC50 values of 2 nM, 8 nM, 3 nM, and 2 M for EGFR (L858R), EGFR (L858R/T790M), EGFR (E746_A750), and EGFR (E746_A750/T790M), respectively, in Ba/F3 cells[5]. In NR6 cells stably expressing EGFR L858R/T790M or del E746_A750/T790M, treatment of WZ4002 (0.001 – 10 μM) for 16 hours efficiently inhibited TGF-α-induced phosphorylation of del E746_A750/T790M[6]. When H1975 cells with the EGFR mutations L858R and T790M were incubated with WZ4002 at various concentrations (0.01 – 3 μM) for 72 hours, HFG (20 ng/mL) significantly induced the resistance to WZ4002 whereas E7050 (1 μM) reversed the resistance induced by HFG[7]. By combing WZ4002 (1 μM) and ABT-263 (1 μM), the tumor spheroids of H1975 SR cells were markedly fragmented 24 hours after the treatment and nearly half of the H1975 SR cells underwent apoptotic cell death[8]. WZ4002 (2.5 mg/kg or 25 mg/kg) inhibited EGFR phosphorylation and significantly reduced the tumor volume in both EGFR del E746_A750/T790M and L858R/T790M mice[5].
作用机制 WZ4002 acts as an irreversible, mutant-selective EGFR kinase inhibitor that binds to the active conformation of EGFR with the regulatory C-helix and the DFG segment of the activation loop[5].

WZ4002 细胞研究

细胞系 浓度 检测类型 检测时间 活动说明 数据源
human 16HBE cells Proliferation assay 72 h Antiproliferative activity against human 16HBE cells expressing wild type EGFR after 72 hrs by MTT assay, IC50=0.811 μM 23792318
human 16HBE14o- cells Cytotoxicity assay 72 h Cytotoxicity against human 16HBE14o- cells harboring wild type EGFR assessed as growth inhibition after 72 hrs by MTT assay, IC50=1.355 μM 23668441
human A431 cells Cytotoxicity assay 72 h Cytotoxicity against human A431 cells overexpressing wild type EGFR assessed as growth inhibition after 72 hrs by MTT assay, IC50=1.108 μM 23668441
human A549 cells Proliferation assay 72 h Antiproliferative activity against k-RAS dependent human A549 cells overexpressing WT EGFR after 72 hrs by MTT assay, IC50=2.102 μM 24607591

WZ4002 动物研究

Dose Mice: 25 mg/kg[3] (o.g.), 50 mg/kg[4] (p.o.)
Administration o.g.

WZ4002 参考文献

[1]Zannetti A, Iommelli F, et al. 3'-deoxy-3'-18F-fluorothymidine PET/CT to guide therapy with epidermal growth factor receptor antagonists and Bcl-xL inhibitors in non-small cell lung cancer. J Nucl Med. 2012 Mar;53(3):443-50.

[2]Zhou W, Ercan D, et al. Novel mutant-selective EGFR kinase inhibitors against EGFR T790M. Nature. 2009 Dec 24;462(7276):1070-4.

[3]Kawabata S, Mercado-Matos JR, et al. Rapamycin prevents the development and progression of mutant epidermal growth factor receptor lung tumors with the acquired resistance mutation T790M. Cell Rep. 2014 Jun 26;7(6):1824-32.

[4]Ercan D, Xu C, et al. Reactivation of ERK signaling causes resistance to EGFR kinase inhibitors. Cancer Discov. 2012 Oct;2(10):934-47.

[5]Zhou W, Ercan D, Chen L, Yun CH, Li D, Capelletti M, Cortot AB, Chirieac L, Iacob RE, Padera R, Engen JR, Wong KK, Eck MJ, Gray NS, Jänne PA. Novel mutant-selective EGFR kinase inhibitors against EGFR T790M. Nature. 2009 Dec 24;462(7276):1070-4.

[6]Lee HJ, Schaefer G, Heffron TP, Shao L, Ye X, Sideris S, Malek S, Chan E, Merchant M, La H, Ubhayakar S, Yauch RL, Pirazzoli V, Politi K, Settleman J. Noncovalent wild-type-sparing inhibitors of EGFR T790M. Cancer Discov. 2013 Feb;3(2):168-81.

[7]Wang W, Li Q, Takeuchi S, Yamada T, Koizumi H, Nakamura T, Matsumoto K, Mukaida N, Nishioka Y, Sone S, Nakagawa T, Uenaka T, Yano S. Met kinase inhibitor E7050 reverses three different mechanisms of hepatocyte growth factor-induced tyrosine kinase inhibitor resistance in EGFR mutant lung cancer. Clin Cancer Res. 2012 Mar 15;18(6):1663-71.

[8]Sakuma Y, Yamazaki Y, Nakamura Y, Yoshihara M, Matsukuma S, Nakayama H, Yokose T, Kameda Y, Koizume S, Miyagi Y. WZ4002, a third-generation EGFR inhibitor, can overcome anoikis resistance in EGFR-mutant lung adenocarcinomas more efficiently than Src inhibitors. Lab Invest. 2012 Mar;92(3):371-83.

WZ4002 实验方案

计算器
存储液制备 1mg 5mg 10mg

1 mM

5 mM

10 mM

2.02mL

0.40mL

0.20mL

10.10mL

2.02mL

1.01mL

20.20mL

4.04mL

2.02mL

WZ4002 技术信息

CAS号1213269-23-8
分子式C25H27ClN6O3
分子量 494.973
别名
运输蓝冰
存储条件

液体 -20°C:3-6个月-80°C:12个月

粉末 Sealed in dry,Store in freezer, under -20°C

溶解度

DMSO: 9 mg/mL(18.18 mM),配合低频超声助溶,注意:DMSO长时间开封后,会吸水并导致溶解能力下降,请避免使用长期开封的DMSO

动物实验配方

30% PEG400+0.5% Tween80+5% propylene glycol+water 30 mg/mL suspension

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